System and method for binocular tripod adapter with automatic locking engagement

ABSTRACT

A binocular adapter including a base and a receiver joined together by a stanchion arm. The receiver being configured to receive a binocular stem in a stem aperture defined by a receiver head. The receiver head configured to rotate relative to a receiver stanchion. The binocular stem including a first and a second end. The first end including a connector configured to connect to a binocular. The second end, distal to the first end, including a stem extension configured to be received by the stem aperture. The second end further including a groove configured to be received in a spring clip disposed on the receiver stanchion for retaining the binocular stem. The receiver head including a fastener for securing the binocular stem within the stem aperture while it is engaged in the spring clip.

TECHNICAL FIELD

Aspects of the present disclosure generally relate to apparatuses andmethods for binocular holding adapters.

BACKGROUND

Binoculars allow for increased perception of objects outside the sightrange of a user, such as an outdoorsman. Binoculars are typically formedusing two sets of lenses and prisms calibrated to magnify an image whenviewed through them. In order to gain a clear picture of an object thebinocular must remain steady and focused. Movement of the binocular maylead to losing sight of the object the user seeks to observe.Additionally, image resolution may be degraded by movement of thesubject or object being viewed. The portability of binoculars allows auser to hold the binoculars, but leaves the stability of the binocularssubject to the steadiness of the user's posture.

Traditionally, binoculars have been attached to a stand for holding thebinoculars steady using a clip within the stand. However, such devicesand methods of securing binoculars have the drawback of allowing thebinoculars to unclip when in use. Other devices for securing binocularsrequired complicated engagement components and/or long installationperiods to properly secure the binoculars.

SUMMARY

The present disclosure generally provides for a lightweight, portablebinocular adapter for securing a binocular to a platform, such as astand, a monopod, bipod, tripod, or any of other various platforms knownin the art. The adapter provides a user the ability to secure and reducemovement of the binocular, so they remain steady during use. The systemand method mitigates instability of the view in the binoculars duringuse and allows for quick and easy installation and removal of thebinoculars from the adapter.

According to the disclosure, the binocular adapter is configured tomount and secure the binocular. A binocular stem (hereinafter stem) issecured to the binocular for quick installation to and removal from theadapter. The stem may include a first end with a male connector such asthreads or other connector(s) securing the stem to the binocular. Asecond end of the stem distal from the first end may have an extensionwith a groove or recess that is configured to be received by a receiverof the adapter.

The adapter includes a base and the receiver joined by a stanchion arm.The receiver may be disposed at an end of the adapter distal from thebase. The base includes a base connector configured to connect with theplatform, e.g. stand, monopod, bipod, or tripod, using a connectioninterface appropriate to the applicable platform. The receiver includesa receiver head connected to a receiver stanchion configured formounting the receiver head, such as by a pin or set screw, about whichthe receiver head may rotate relative to the receiver stanchion. A stemaperture configured to receive the stem extension may be formed by thereceiver head.

The receiver head may be configured to rotate or actuate between anopened position, wherein the stem extension may be inserted or removedfrom the stem aperture in the receiver head, and a closed positionwherein the stem extension (and stem) may be locked into the receiverhead/receiver. The receiver head illustratively may rotate 45 degreesbetween the opened and closed position, to facilitate ease of engagementof the stem into the stem aperture. When the stem is removed from thestem aperture of the receiver head of the adapter, the receiver head maybe held in the opened position by a spring. The receiver head andstanchion may be configured with respective portions that abut or engageto limit the receiver head's range of motion relative to the receiverstanchion. With the stem extension inserted into the stem aperture ofthe receiver head, the receiver head may be pivoted (e.g., down) to apoint where the recess or groove in the stem extension engages, and iscaptured within, a spring clip disposed on the receiver stanchion. Uponclosing the receiver head, the receiver head may abut the receiverstanchion. In the closed position, with the stem extension installed, itis held within the stem aperture while the receiver head is pivoted downin the closed position. A fastener, such as a thumb screw, may betightened against the stem to prevent movement of the stem and therebyprevent movement and rotation of the binocular that may be engaged withthe stem.

The above summary has outlined, rather broadly, some features andtechnical advantages of the present disclosure in order that thedetailed description that follows may be better understood. Additionalfeatures and advantages of the disclosure will be described below. Itshould be appreciated by those skilled in the art that this disclosuremay be readily utilized as a basis for modifying or designing otherstructures for carrying out the same purposes of the present disclosure.It should also be realized by those skilled in the art that suchequivalent constructions do not depart from the teachings of thedisclosure as set forth in the appended claims. The novel features,which are believed to be characteristic of the disclosure, both as toits organization and method of operation, together with further objectsand advantages, will be better understood from the following descriptionwhen considered in connection with the accompanying figures. It is to beexpressly understood, however, that each of the figures is provided forthe purpose of illustration and description only and is not intended asa definition of the limits of the present disclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

For a more complete understanding of the present disclosure, referenceis now made to the following description taken in conjunction with theaccompanying drawings.

FIG. 1A illustrates a binocular secured to a stem receivable by anembodiment of a binocular adapter on a platform according to thedisclosure.

FIG. 1B illustrates the embodiment of the binocular adapter of FIG. 1Aconfigured to receive a binocular in the adapter.

FIG. 1C illustrates the embodiment of the binocular adapter of FIG. 1Asecuring a binocular in place.

FIG. 2A illustrates an embodiment of a binocular adapter with a stemconfigured to be inserted into a receiver of the adapter according tothe disclosure.

FIG. 2B illustrates the embodiment of the binocular adapter of FIG. 2Awith the stem secured in the receiver of the adapter.

FIG. 3A illustrates a front perspective view of an embodiment of abinocular adapter with an opened receiver according to the disclosure.

FIG. 3B illustrates a front perspective view of an embodiment of thebinocular adapter of FIG. 3A with a closed receiver according to thedisclosure.

FIG. 3C illustrates a side plan view of the embodiment of the binocularadapter of FIG. 3A with the receiver closed.

FIG. 3D illustrates a front plan view of the embodiment of the binocularadapter of FIG. 3A with the receiver closed.

FIG. 4A illustrates a side cross sectional view of the receiver of thebinocular adapter taken along line a-a of FIG. 3C.

FIG. 4B illustrates a front cross sectional view of the receiver of thebinocular adapter taken along line b-b of FIG. 3D.

FIG. 5 illustrates a bottom perspective view of an embodiment of abinocular adapter according to the disclosure with the receiver opened.

FIG. 6 illustrates an alternative embodiment of a binocular adapteraccording to the disclosure.

DETAILED DESCRIPTION

The detailed description set forth below, in connection with theappended drawings, is intended as a description of variousconfigurations and is not intended to represent the only configurationsin which the concepts described herein may be practiced. The detaileddescription includes specific details for the purpose of providing athorough understanding of the various concepts. It will be apparent tothose skilled in the art, however, that these concepts may be practicedwithout these specific details.

FIGS. 1A-1C illustrate a binocular 140 secured to a binocular stem 102(hereinafter “stem”) receivable by an embodiment of a binocular adapter110, according to the disclosure, on a platform 114 (in thisillustration, for example, the platform is a tripod). The platform 114may be a stand, monopod, bipod, tripod, or any of various otherstabilizing platforms known in the art.

Referring to FIG. 1A, the binocular 140 may be operatively connected tothe stem 102. The stem 102 may include a first end (not shown) with aconnector such as threads or other connectors as known in the art forsecuring the stem 102 to the binocular 140. A second end 104 of the stem102 distal from the first end may comprise a stem extension 106 having agroove or recess 108.

The adapter 110 includes a base 112 and a receiver 118 joined by astanchion arm 116 disposed between the base 112 and receiver 118. Thebase 112 includes a base connector (not shown in this view) forinterconnecting the adapter 110 to the platform 114. The receiver 118includes a receiver head 120. The receiver head 120 is connected to areceiver stanchion 124 that extends outwardly from the receiver 118. Theconnection of the receiver head 120 to the receiver stanchion 124, inthis illustrative embodiment, is made using a rotatable pin 122, aboutwhich the receiver head 120 may rotate relative to the receiverstanchion 124. The receiver head 120 may have a stem aperture 126 formedin it and configured to receive the stem extension 106. The receiverhead 120 may be configured to rotate between an opened position, whereinthe stem extension 106 of the stem 102 may be inserted or removed fromthe stem aperture 126 of the receiver 118, and a closed position whereinthe stem extension 106 of the stem 102 may be secured to the receiver118. The receiver head 120 illustratively may rotate 45 degrees betweenthe opened and closed position, however, it should be appreciated thatother ranges of rotation may be implemented according to the disclosure,to facilitate ease of insertion of the stem into the stem aperture. Forexample, the receiver head may be configured to rotate in a range ofangles of about 0-90 degrees relative to an axis along the receiverstanchion 124.

When the stem 102 is not disposed in the stem aperture, the receiverhead 120 may be held in an opened position by a spring (not shown), orother means to hold the receiver head 120 open (for example, viafriction engagement between the receiver head, pin and receiverstanchion 124, ratchet means, fasteners or the like). Upon insertion ofthe stem extension 106 of the stem 102 in the stem aperture 126 of thereceiver 118, the receiver head 120 may be pivoted down. In thisillustrative embodiment, the stem groove or recess 108 in the stemextension 106 engages, and is captured within, a spring clip 128. Thespring clip 128 is disposed on and connected to the receiver stanchion124. When the receiver head 120 is closed, the receiver head 120 mayrest against the receiver stanchion 124. In the closed position, thestem extension 106 is held within the stem aperture 126 by the springclip 128 engaging the stem groove or recess 108. A fastener 130, such asa thumb screw, may be tightened against the stem groove 108. Thefastener 130 retains the stem extension 106, held within the stemaperture 126 and the spring clip 128, by engaging the stem groove orrecess 108, and prevents movement of the stem 102 and the binocular 140.The fastener 130 may be further configured to prevent rotation of thebinocular 140 by frictionally engaging the stem extension 106.Additionally, the fastener 130 may retain the stem 102 within the stemaperture 126 when the receiver head 120 is in the open position.Although a round thumb screw is illustrated, it should be appreciatedthat other geometrically-shaped screws or knobs, and/or retentionmechanisms may be implemented, such as wing nuts, other threaded orfriction fit structures, or the like.

FIG. 1B illustrates in further detail the second end 104 of the stem 102inserted into the stem aperture 126. The receiver head 120 may remain inthe open position while the stem 102 is inserted, and in that positionthe stem 102 with binocular 140 may be inserted or removed from theadapter 110. To secure the binocular 140 to the adapter 110, thereceiver head 120 and the stem 102 attached to the binocular 140 arelowered, putting the receiver head 120 into the closed positionillustrated further in FIG. 1C. The second end 104 of the stem 102 isreceived and secured by the spring clip 128, thereby holding thereceiver head 120 into the closed position. As a result, the binocular140 is held in place by the adapter 110. A user may then further securethe binocular 140 in place using the fastener 130 and look through thebinocular 140 for a steady and clear picture of a distant object.

FIGS. 2A and 2B further illustrate the embodiment of the binocularadapter 110 with the stem 102 configured to be inserted into thereceiver 118 of the adapter 110 according to the disclosure. FIG. 2Afurther illustrates the embodiment of the binocular adapter 110,according to the disclosure, with the receiver head 120 in the openposition. The adapter 110 includes the base 112 connected to thereceiver 118 by the stanchion arm 116. The stem 102 includes the firstend 100 and the second end 104. The first end 100 may be formed with themale connector such as threads or other connectors as known in the art.The second end 104 may include the stem extension 106 and the stemgroove 108. The stem extension 106 may be secured in the stem aperture126 formed by the receiver head 120. An alternative embodiment of thestem extension 106 may be configured with a hexagonal socket (best seenas 436 of FIG. 4B). The hexagonal socket may be sized for securing thestem 102 to the binocular 140 by inserting a hex drive tool to tightenthe first end 100 of the stem 102 to the binocular 140.

The receiver includes the receiver head 120 and the receiver stanchion124. The receiver head 120 and the receiver stanchion 124 may beinterconnected by a rotatable pin 122. As an alternative to therotatable pin 122, a shoulder screw and at least one washer may be usedfor reducing unintentional movement of the receiver head 120. Therotatable pin 122 allows the receiver head 120 to rotate between theopened position and the closed position. While the receiver head 120 isin the opened position, the stem extension 106 may be inserted into thestem aperture 226.

FIG. 2B further illustrates the embodiment of the binocular adapter 110with the receiver head 120 in the closed position with the stem 102 heldin place. The spring clip 128 is illustrated engaging the stem groove108. The spring clip 128 retains the stem groove 108 to secure the stem102 in place. The spring clip 128 may be fixedly disposed on thereceiver stanchion 124. Additionally, the spring clip 128 may be securedby a clip fastener 132. It should be appreciated that the spring clip128 may be otherwise fastened on the receiver stanchion 124, such as byother hardware, welding, epoxying, or the like. It should be furtherappreciated that although a spring clip is illustrated as engaging agroove or recess 108 in the stem extension 106, other mechanisms forengaging the stem 102 in the receiver 120 may be implemented such asfriction engagement, clasps, extensible pin(s) or the like. The receiverhead 120 may include the fastener 130 such as a thumb screw or otherfastener for securing the stem 102 in place.

In order to illustrate further details of the binocular adapteraccording to the disclosure, FIGS. 3A and 3B illustrate a frontperspective view of the embodiment of the binocular adapter 110. FIG.3A, again, illustrates the binocular adapter 110 with the receiver head120 in the opened position. While in the opened position, the stem 102may be inserted into the stem aperture 126. The receiver head 120 mayinclude the thumb screw or fastener 130 for securing the stem 102. Thefastener 130 may be held in place using a retention pin or set screw334. The fastener 130 may be configured to prevent rotation of thebinocular 140 by reducing rotation of the stem extension 106.Additionally, the thumb screw may retain the stem 102 within the stemaperture 126 when the receiver head 120 is in the opened position. Ascrew 332 may be implemented to retain the spring clip 128 in place, andto facilitate replacement of the spring clip 128 in the event that itstension degrades over time. As discussed above, other methods ofretaining the spring clip 128 in place may be used without departingfrom the scope of the disclosure.

FIG. 3B further illustrates the embodiment of the binocular adapter 110with the receiver head 120 in the closed position.

FIG. 3C illustrates a side plan view of the binocular adapter 110 asshown in FIG. 3B. In FIG. 3C the receiver 118 is illustrated with asection line a-a. FIG. 4A correspondingly illustrates a view in sectionof the receiver 118 taken along line a-a of FIG. 3C. The receiver head120 is shown in a closed position abutting the receiver stanchion 124.The receiver head 120 may position the fastener 130 against the stemaperture 426 where the stem 102 may be secured. The screw or clipfastener 432, threaded into a correspondingly threaded recess in thereceiver stanchion, may be configured and used to position, secure, andfacilitate replacement of the spring clip 428.

FIG. 3D illustrates a front plan view of the embodiment of the binocularadapter 110 according to the disclosure. In FIG. 3D the receiver 118 isillustrated with a section line b-b. FIG. 4B correspondingly illustratesa view in section of the receiver 118 taken along line b-b of FIG. 3D.As shown in FIG. 4B, the receiver head 120 is shown in a closed positionabutting the receiver stanchion 124. The stem 102 is shown secured inthe stem aperture 126. The first end 100 of the stem 102 is shownextending from the receiver 118 for securing to the binocular (notshown). The first end 100 of the stem 102 may include the connector,such as threads, for securing the first end 100 to the binocular (notshown). The stem groove 108 on the stem extension 106 is configured toreceive the spring clip 432 and is in alignment with the fastener 130configured to reduce movement of the stem 102. The fastener 130 may besecured to the receiver head 120 by the retention pin or set screw 434.Further, it should be noted, the fastener 130 may include apartially-threaded shaft 437. The partially-threaded shaft 437 may beconfigured to interact with the set screw or retention pin 334 to limittravel of the fastener 130. A hexagonal socket 436 may be disposedwithin the stem aperture 126 and be used to secure the stem 102 to thebinocular (as discussed hereinbefore), i.e. using a hex drive tool.

FIG. 5 illustrates a bottom perspective view of the binocular adapter110. The binocular adapter base 112 includes a base connector 538 forinstalling or otherwise attaching the adapter 110 to a platform (shown,for example, in FIG. 1A).

FIG. 6 illustrates an alternative embodiment of the binocular adapter610 according to the disclosure. The adapter 610 includes a base 612 anda receiver 618 joined by a stanchion arm 616 disposed between the base612 and the receiver 618. The base 612 includes a base connector 638 forinterconnecting the adapter 610 to a platform (not shown), such as on astand, monopod, bipod, tripod or the like. The base connector 638 mayuse a threaded female connector to secure the adapter 610 to theplatform. It should be understood by one skilled in the art that othermethods of securing the adapter 610 to a platform may be substitutedwithout deviating from the scope of the disclosure.

The receiver 618 includes a receiver head 620. The receiver head 620 isconnected to a receiver stanchion 624 that extends outwardly from thereceiver 620. The connection of the receiver head 620 to the receiverstanchion 624, in this illustrative embodiment, is made using a shoulderscrew 622 bracketed on either side by at least one washer such that thereceiver head 620 rotates relative to the receiver stanchion 624.Additionally, the receiver head 620 and/or the receiver stanchion 624may include portions that abut or engage at a point 625 to limit thereceiver head's 620 range of motion relative to the receiver stanchion624.

A spring clip 628 may be disposed on the receiver stanchion 624.Additionally, the spring clip 628 may be secured by a clip fastener 632.It should be appreciated that the spring clip 628 may be otherwisefastened on the receiver stanchion 624, such as by other hardware,welding, epoxy, or the like. It should be further appreciated thatalternative embodiments may substitute the spring clip 628 with otherretention methods such as friction engagement, clasps, extensible pin(s)or the like without deviating from the disclosure.

The receiver head 620 may include a fastener 630 such as a thumb screwor other fastener for securing a stem (as discussed hereinbefore) inplace. The fastener 630 may be held in place using a retention pin orset screw 634. Further, it should be noted, the fastener 630 may includea partially-threaded shaft (best shown in FIG. 4B). Thepartially-threaded shaft may be configured to interact with the setscrew or retention pin 634 to limit travel of the fastener 630 whentorque is applied to the fastener 630. The fastener 630 may beconfigured to prevent rotation of the binocular 140 by reducing rotationof the stem extension 106. Additionally, the fastener or thumb screw 630may retain the stem 102 within the stem aperture 126 when the receiverhead 120 is in the open position.

Although the present disclosure and its advantages have been describedin detail, it should be understood that various changes, substitutionsand alterations can be made herein without departing from the disclosureas defined by the appended claims. Moreover, the scope of the presentapplication is not intended to be limited to the particularconfigurations described in this specification. As one of ordinary skillin the art will readily appreciate from the disclosure that presentlyexisting or later to be developed features or elements that performsubstantially the same function or achieve substantially the same resultas the corresponding configurations described herein may be utilizedaccording to the present disclosure. Accordingly, the appended claimsare intended to include within their scope features or elements.

It should be understood that when an element is referred to as being“connected” or “coupled” to another element (or variations thereof), itcan be directly connected or coupled to the other element or interveningelements may be present.

Benefits, other advantages, and solutions to problems have beendescribed herein with regard to specific embodiments. However, thebenefits, advantages, solutions to problems, and elements that may causeany benefit, advantage, or solution to occur or become more pronouncedare not to be construed as critical, required, or essential features orelements of the disclosure.

Further, it should be appreciated that in the appended claims, referenceto an element in the singular is not intended to mean “one and only one”unless explicitly so stated, but rather “one or more.”

The description of the disclosure is provided to enable any personskilled in the art to make or use the disclosure. Various modificationsto the disclosure will be readily apparent to those skilled in the art,and the generic principles defined herein may be applied to othervariations without departing from the spirit or scope of the disclosure.Thus, the disclosure is not intended to be limited to the examples anddesigns described herein but is to be accorded the widest scopeconsistent with the principles and novel features disclosed herein.

The words “illustrative” or “exemplary” are used herein to mean “servingas an example, instance, or illustration.” Any aspect described hereinas “illustrative” or “exemplary” is not necessarily to be construed aspreferred or advantageous over other aspects.

Although embodiments have been described in detail for purposes ofillustration, various modifications may be made without departing fromthe scope and spirit of the present disclosure. Accordingly, thedisclosure is not to be limited by the examples presented herein, but isenvisioned as encompassing the scope described in the appended claimsand the full range of equivalents of the appended claims.

1. A binocular adapter comprising: a base including a base connectorconfigured to receive a platform connector; a stanchion arm connected tothe base; a receiver connected to the stanchion arm distal from the baseand having a receiver stanchion, the receiver including a receiver headhaving a stem aperture, the receiver head being connected to thereceiver to allow the receiver head to actuate between an open positionand a closed position, a portion of the receiver head substantiallyabutting a portion of the receiver stanchion when the receiver head isin the closed position, the receiver stanchion including a spring clipdisposed thereon; a binocular stem comprising a first end configured toconnect to a binocular, and a second end distal to the first endincluding a stem extension configured to be received by the stemaperture of the receiver head, the stem extension having a groove sizedto be engaged by the spring clip; wherein when the receiver head is inthe open position the stem extension can be inserted into the stemaperture, and wherein when the binocular stem is present in the stemaperture and the receiver head is in the closed position with theportion of the receiver head substantially abutting the receiverstanchion the groove of the stem extension is disposed within the springclip retaining the stem extension within the receiver of the binocularadapter.
 2. The binocular adapter of claim 1 wherein the receiver headis connected to the receiver stanchion by one of a pin or a shoulderscrew and the receiver head rotates about the pin or the shoulder screwto allow the receiver head to actuate between the open position and theclosed position.
 3. The binocular adapter of claim 1 wherein the base,stanchion arm and at least a portion of the receiver are formed as aunitary structure.
 4. The binocular adapter of claim 1 further includinga fastener disposed through a portion of the receiver head andconfigured to secure the binocular stem within the stem aperture.
 5. Thebinocular adapter of claim 1 wherein the first end of the binocular stemis configured having a threaded male connector configured to connect tothe binocular.
 6. The binocular adapter of claim 4 further wherein thefastener disposed through a portion of the receiver head is a thumbscrew configured to secure the binocular stem within the stem aperture.7. A binocular adapter configured to receive a stem extension attachedto a binocular, the binocular adapter comprising: a base configured tobe fixedly disposed on a platform; a stanchion arm connected to thebase; a receiver connected to the stanchion arm distal from the base,the receiver including a receiver head having a stem aperture, thereceiver head being connected to the receiver to allow the receiver headto actuate between an open position and a closed position, the receiverhead being configured to receive the stem extension attached to thebinocular into the stem aperture when the receiver head is in the openposition, the receiver head being configured to engage and fix the stemextension in the binocular adapter when the stem extension is present inthe stem aperture and the receiver head is in the closed position. 8.The binocular adapter of claim 7 wherein the base includes a connectorconfigured to receive a platform connector to fixedly dispose the baseon the platform.
 9. The binocular adapter of claim 7 wherein thereceiver includes a receiver stanchion extending outwardly from thereceiver.
 10. The binocular adapter of claim 9 wherein a portion of thereceiver head abuts a portion of the receiver stanchion when thereceiver head is in the closed position.
 11. The binocular adapter ofclaim 10 wherein the receiver stanchion includes a spring clip disposedthereon.
 12. The binocular adapter of claim 11 wherein the stemextension attached to the binocular comprises a first end configured toconnect to the binocular, and a second end distal to the first endconfigured to be received by the stem aperture of the receiver head, thestem extension having a groove sized to be engaged by the spring clip.13. The binocular adapter of claim 12 wherein the groove of the stemextension is configured to engage the spring clip when the receiver headis rotated to abut the receiver stanchion.
 14. A binocular adaptercomprising: a base including a base connector configured to receive aplatform connector; a stanchion arm connected to the base; a receiverconnected to the stanchion arm distal from the base, the receiverincluding a receiver head having a stem aperture, the receiver headbeing connected to the receiver to allow the receiver head to actuatebetween an open position and a closed position; a binocular stemcomprising a first end configured to connect to a binocular, and asecond end distal to the first end including a stem extension configuredto be received by the stem aperture of the receiver head; wherein whenthe receiver head is in the open position the stem extension can beinserted into the stem aperture, and wherein when the binocular stem ispresent in the stem aperture and the receiver head is in the closedposition the stem extension is held within the stem aperture.
 15. Thebinocular adapter of claim 14 further comprising a receiver stanchion, aportion of the receiver head abutting a portion of the receiverstanchion when the receiver head is in the closed position.
 16. Thebinocular adapter of claim 15, wherein the receiver stanchion includes aspring clip disposed thereon, and the stem extension has a groovedisposed thereon sized to be engaged by the spring clip when the stemextension is disposed in the stem aperture and the receiver head is inthe closed position.
 17. The binocular adapter of claim 15, wherein thereceiver head is connected to the receiver stanchion by a pin and thereceiver head rotates about the pin to allow the receiver head toactuate between the open position and the closed position.
 18. Thebinocular adapter of claim 14 wherein the base, stanchion arm and atleast a portion of the receiver are formed as a unitary structure. 19.The binocular adapter of claim 14 further including a fastener disposedthrough a portion of the receiver head and configured to secure thebinocular stem within the stem aperture.
 20. The binocular adapter ofclaim 19 further wherein the fastener disposed through a portion of thereceiver head is a thumb screw configured to secure the binocular stemwithin the stem aperture.